CN102967349A - Networked on-line inspection method of supersonic gas flowmeter - Google Patents

Abstract

The invention relates to a networked online inspection method for a gas ultrasonic flowmeter. The basic implementation method is to connect the ultrasonic flowmeter to be inspected to the metering network platform, establish the basic information of the ultrasonic flowmeter to be inspected in the database, and read the ultrasonic flowmeter to be inspected and its supporting temperature, pressure sensors and chromatographic parameters through the network platform. The data collected by the analyzer checks the status of the ultrasonic flowmeter under inspection, and performs sound velocity inspection according to the calculated theoretical sound velocity, and finally uses the network platform to automatically generate on-site inspection records of the ultrasonic flowmeter to judge whether the deviation of the sound velocity value meets the specified requirements. Whether the ratio of the acoustic channel flow velocity value to the average axial flow velocity value passing through the flowmeter is within a reasonable range. The invention realizes the online inspection of the ultrasonic flowmeter through the network platform, does not need to interrupt the measurement, has low inspection cost, and has a high degree of informatization, thereby ensuring the accuracy of the measurement data of the flowmeter.

Description

The online method of inspection of a kind of networking of gas ultrasonic flowmeter

Technical field

The present invention relates to a kind of online method of inspection, especially relate to a kind of online method of inspection of networking of gas ultrasonic flowmeter.

Background technology

At present, China's energy measurement monitoring disperses to carry out, and the level of informatization is not high, and trading port, the along the line and large flow Trade Measures of transfering natural gas from the west to the east station all begin to obtain continuous data with ultrasonic flowmeter in enormous quantities.Since ANGA in 1998 proposed No. 9 report of AGA " the multichannel ultrasonic flowmeter is measured rock gas ", the multichannel ultrasonic flowmeter is applied to rock gas handing-over metering to be increased day by day.Because gas distributing system and test satellite location are distributed in the whole province various places, how to guarantee the accurate of measurement data, how in time pinpointing the problems, regularly implement examination and maintenance is a difficult problem.

The round of visits of ultrasonic flowmeter generally is no more than 2 years and annual check in the use scene all need be used.The method of checking in the use is divided by principle two kinds, and a kind of method is that the online accurate flowmeter of a station symbol that adopts compares with it; Another kind method is relatively as the basis flowmeter to be carried out networking at X-ray inspection X take the velocity of sound.Because the proving flowmeter relative method needs on-the-spot installation code device, checkability is not high, has potential safety hazard, so that every country has all been invested the more convenient online method of inspection of networking that compares based on the velocity of sound efficiently to sight.

Summary of the invention

The object of the present invention is to provide a kind of online method of inspection of networking of gas ultrasonic flowmeter.

The step of the technical solution used in the present invention is as follows:

A) with the tested ultrasonic flowmeter access Zhejiang Province natural gas energy resource Network Measuring System network platform, in database, set up the flowmeter essential information, comprise model type, manufacturer, factory number, accuracy class, flow range, confirm the accuracy class of supporting pressure unit, temperature transmitter and chromatograph;

B) by described network platform reading out data, the data that read comprise that parameters, alarm logging, each sound channel signal gain, each sound channel receive signal number percent, each sound channel signal to noise ratio (S/N ratio), component data, temperature, pressure, volumetric flow rate, each sound channel actual measurement velocity of sound;

C) verify tested flowmeter state;

D) the component data that the temperature that the pressure that reads according to pressure unit, temperature transmitter read and chromatograph read are calculated the theoretical velocity of sound of gas ultrasonic flowmeter under the current makings condition;

E) utilize the network platform automatically to generate ultrasonic flowmeter Site Detection record.

The accuracy of described pressure unit should be better than 0.1%, and the accuracy of described temperature converter should be better than 0.1 ℃, and the technical feature of chromatograph should satisfy GB/T13610-2003, and its measurement standard degree should reach 0.05%.

The tested flowmeter state of described verification, that is:

A, data have no change when checking the flowmeter parameters with calibrating;

B, the flowmeter alarm logging is checked, confirm to produce without the flowmeter self reason, can cause the situation of the warning of flow mistake;

C, to each signal, comprise that the yield value of each sound channel signal, each sound channel receive signal number percent and each sound channel signal to noise ratio (S/N ratio), its deviation should be in the scope that product description allows.

Read data in 8～12 minutes by the described network platform.

The beneficial effect that the present invention has is:

1. the advantages such as the online method of inspection of gas ultrasonic flowmeter networking of the present invention need not to interrupt metering with it, and inspection cost is low, and the level of informatization is high, and is convenient and swift are subject to the favor of each large enterprises and natural gas companies, and development potentiality is huge.

2. the online method of inspection of gas ultrasonic flowmeter of the present invention networking, uncertainty is better than 0.5%, can in time find the problem of gas distributing system gas ultrasonic flowmeter in using, regularly implement examination and maintenance, has guaranteed the accuracy of flowmeter survey data.

Description of drawings

Accompanying drawing is the calculation flow chart of the theoretical velocity of sound.

Embodiment:

A) with the tested ultrasonic flowmeter access Zhejiang Province natural gas energy resource Network Measuring System network platform, in database, set up the flowmeter essential information, comprise model type, manufacturer, factory number, accuracy class, flow range, confirm the accuracy class of supporting pressure unit, temperature transmitter and chromatograph, the accuracy of pressure unit should be better than 0.1%, the accuracy of described temperature converter should be better than 0.1 ℃, the technical feature of chromatograph should satisfy GB/T13610-2003, and its measurement standard degree should reach 0.05%.

B) by described network platform reading out data, the data that read comprise that parameters, alarm logging, each sound channel signal gain, each sound channel receive signal number percent, each sound channel signal to noise ratio (S/N ratio), component data, temperature, pressure, volumetric flow rate, each sound channel actual measurement velocity of sound, read the data in 8～12 minutes.

C) verify tested flowmeter state, that is:

Data have no change when i) checking the flowmeter parameters with calibrating;

Ii) the flowmeter alarm logging is checked that affirmation produces without the flowmeter self reason, can cause the situation of the warning of flow mistake;

Iii) to each signal, comprise that the yield value of each sound channel signal, each sound channel receive signal number percent and each sound channel signal to noise ratio (S/N ratio), its deviation should be in the scope that product description allows.

D) the component data that the temperature that the pressure that reads according to pressure unit, temperature transmitter read and chromatograph read are calculated the theoretical velocity of sound of gas ultrasonic flowmeter under the current makings condition.

The method of the theory of computation velocity of sound: according to the pressure that reads, temperature, component data, calculate the theoretical velocity of sound under the current makings condition.The total formula of the theoretical velocity of sound is as follows:

$W={\left[\frac{c_p}{c_v}\left(\frac{\mathrm{RT}}{M}\right)(Z+{\mathrm{\ρ}}_m{\left(\frac{\∂Z}{\∂{\mathrm{\ρ}}_m}\right)}_T)\right]}^{0.5},---(3-1)$

In the formula: W is the rock gas velocity of sound, the ms of unit ^-1R is gas law constant, the MJkmol of unit ^-1K ^-1Temperature in the T pipeline, unit K; M is the molal weight of rock gas, units/kg kmol ^-1Z is gas deviation factor; ρ _mBe the rock gas molar density, the kmolm of unit ^-3

As shown in drawings, the calculation procedure of the theoretical velocity of sound is mainly calculated by gas deviation factor, and rock gas specific heat at constant volume c _v, specific heat at constant pressure c _pCalculating two large steps forms.

Specific heat at constant volume under the operating temperature T under each component perfect condition of rock gas

$c_{\mathrm{pi}}^o=B+C{\left[\frac{D/T}{\sinh (D/T)}\right]}^2+E{\left[\frac{F/T}{\cosh (F/T)}\right]}^2+G{\left[\frac{H/T}{\sinh (H/T)}\right]}^2+I{\left[\frac{J/T}{\cosh (J/T)}\right]}^2---(3-2)$

In the formula

Be rock gas i component specific heat at constant volume in the ideal situation, unit is kJkg ^-1K; A, B, C, D, E, F, G, H, I, J, K are constant, can find according to the AGA10# report; T is pipe temperature, and unit is K.

$c_p^o=\underset{i=1}{\overset{N}{\mathrm{\Σ}}}{x}_i{c}_{\mathrm{pi}}^o---(3-3)$

Specific heat at constant volume c _vFor:

$c_v=c_p^o-R\{1+T\underset{0}{\overset{{\mathrm{\ρ}}_m}{\∫}}[\frac{T}{{\mathrm{\ρ}}_m}{\left(\frac{{\∂}^{2}Z}{{\∂T}^2}\right)}_{{\mathrm{\ρ}}_m}+\frac{2}{{\mathrm{\ρ}}_m}{\left(\frac{\∂Z}{\∂T}\right)}_{{\mathrm{\ρ}}_m}\left]d{\mathrm{\ρ}}_m\right\}---(3-4)$

In the formula: ρ _mBe rock gas molar density, kmolm ^-3

Specific heat at constant pressure c _pFor:

$c_p=c_v+\left(\frac{T}{{{\mathrm{\ρ}}_m}^2}\right)\frac{{\left[{\left(\frac{\∂P}{\∂T}\right)}_{{\mathrm{\ρ}}_m}\right]}^2}{\left[{\left(\frac{\∂P}{{\∂\mathrm{\ρ}}_m}\right)}_T\right]}---(3-5)$

E) utilize the network platform automatically to generate ultrasonic flowmeter Site Detection record.

F) result treatment.Comprehensive aforementioned check result, and the acoustic velocity value deviation of judging the deviation of acoustic velocity value of each sound channel and total acoustic velocity value and calculating should be not more than the setting of flowmeter instructions, and the flow speed value of every sound channel should be within zone of reasonableness with the ratio of average axial flow velocity value by flowmeter.Final formation examining report is as shown in table 1.

Table 1

The example that is used for application of the present invention is:

Natural gas energy resource network monitoring system, the networking that wherein is used for the ultrasonic flowmeter of gas discharge detection is (to comprise model type by the tested ultrasonic flowmeter essential information that read step a) accesses at X-ray inspection X, manufacturer, factory number, accuracy class, flow range), supporting pressure unit, (wherein the accuracy of pressure unit is better than 0.1% to the accuracy class of temperature transmitter and chromatograph, the accuracy of temperature converter is better than 0.1 ℃, the technical feature of chromatograph satisfies GB/T13610-2003 and the measurement standard degree reaches 0.05%), step b) each sound channel actual measurement velocity of sound of the middle tested ultrasonic flowmeter that accesses; The gas component data that the temperature that temperature, pressure unit obtain, pressure data, chromatograph obtain are being carried out such as step c tested flowmeter state) verification after, obtain two groups of concrete data shown in table 2 (a), 2 (b).

Table 2 (a)

Table 2 (b)

According to pressure, temperature, the component data that above-mentioned steps obtains, integrating step d) the theoretical velocity of sound computing formula that provides, obtain the comparison of the theoretical velocity of sound and real velocity of sound, as shown in table 3.

Table 3

The relative error maximal value of twice empirical theory velocity of sound only is 0.11% as can be seen from the above table.

Above-mentioned embodiment is used for the present invention that explains, rather than limits the invention, and in the protection domain of spirit of the present invention and claim, any modification and change to the present invention makes all fall into protection scope of the present invention.

Claims (4)

1. the online method of inspection of networking of a gas ultrasonic flowmeter is characterized in that the method comprises:

A) with the tested ultrasonic flowmeter access Zhejiang Province natural gas energy resource Network Measuring System network platform, in database, set up the flowmeter essential information, comprise model type, manufacturer, factory number, accuracy class, flow range, confirm the accuracy class of supporting pressure unit, temperature transmitter and chromatograph;

B) by described network platform reading out data, the data that read comprise that parameters, alarm logging, each sound channel signal gain, each sound channel receive signal number percent, each sound channel signal to noise ratio (S/N ratio), component data, temperature, pressure, volumetric flow rate, each sound channel actual measurement velocity of sound;

C) verify tested flowmeter state;

D) the component data that the temperature that the pressure that reads according to pressure unit, temperature transmitter read and chromatograph read are calculated the theoretical velocity of sound of gas ultrasonic flowmeter under the current makings condition;

E) utilize the network platform automatically to generate ultrasonic flowmeter Site Detection record.

2. the online method of inspection of networking of a kind of gas ultrasonic flowmeter according to claim 1, it is characterized in that: the accuracy of described pressure unit should be better than 0.1%, the accuracy of described temperature converter should be better than 0.1 ℃, the technical feature of chromatograph should satisfy GB/T13610-2003, and its measurement standard degree should reach 0.05%.

3. the online method of inspection of networking of a kind of gas ultrasonic flowmeter according to claim 1 is characterized in that: the tested flowmeter state of described verification, that is:

A, data have no change when checking the flowmeter parameters with calibrating;

B, the flowmeter alarm logging is checked, confirm to produce without the flowmeter self reason, can cause the situation of the warning of flow mistake;

C, to each signal, comprise that the yield value of each sound channel signal, each sound channel receive signal number percent and each sound channel signal to noise ratio (S/N ratio), its deviation should be in the scope that product description allows.

4. the online method of inspection of networking of a kind of gas ultrasonic flowmeter according to claim 1 is characterized in that: read data in 8 ~ 12 minutes by the described network platform.

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